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Bimetallic Metal–Organic Framework Featuring Nitrogen/Oxygen Sites for Superior Methane/Nitrogen Adsorption Separation

INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH [2025]
Zhijie Zhou, Yanting Gao, Wei Xia, Wenbo Shi, Yizhou Liu, Fang Zheng, Zhiguo Zhang, Qiwei Yang, Qilong Ren, Zongbi Bao
ABSTRACT

The development of advanced adsorbents for methane (CH4) and nitrogen (N2) separation is critical for the efficient utilization of coal-bed methane (CBM), which is a key alternative energy resource. Herein, we report a bimetallic copper–indium-based metal–organic framework (MOF), CuIn(3-ain)4, featuring high-density nitrogen and oxygen sites distributed along its pore surface. These negatively charged atom sites, derived from CuN4 and InO8 clusters, form multiple hydrogen-bonding interactions with CH4, significantly enhancing its adsorption affinity. CuIn(3-ain)4 demonstrates a high CH4 uptake of 1.56 mmol g–1 and excellent CH4/N2 selectivity under ambient conditions, outperforming many reported materials. Dynamic breakthrough experiments confirm that over 90% purity methane can be obtained in a single adsorption–desorption cycle. Grand Canonical Monte Carlo (GCMC) simulations and density functional theory (DFT) calculations reveal that the nitrogen and oxygen sites play a crucial role in selectively recognizing CH4 over N2, leading to a superior separation efficiency. Moreover, the material exhibits excellent cyclic stability and scalability, making CuIn(3-ain)4 a promising candidate for practical CH4/N2 separation in CBM purification. This study provides valuable insights into the design of MOFs for challenging gas separations, emphasizing the role of polar sites in facilitating selective adsorption.

MATERIALS

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